WO2021217758A1

WO2021217758A1 - Spliced display device

Info

Publication number: WO2021217758A1
Application number: PCT/CN2020/091296
Authority: WO
Inventors: 刘金风
Original assignee: Tcl华星光电技术有限公司
Priority date: 2020-04-30
Filing date: 2020-05-20
Publication date: 2021-11-04
Also published as: CN111429831A; CN111429831B

Abstract

A spliced display device (100), comprising at least two display panels (10, 20) and a driving device (30) used for driving the display panels (10, 20) to display. Any of the display panels (10, 20) comprises at least two display areas (11, 12; 21, 22) arranged in parallel in a first direction (X); any two adjacent display areas (11, 12; 21, 22) perform scanning in directions opposite each other or in directions deviating from each other; and the maximum brightness area or the minimum brightness area of the spliced display device (100) is located between two adjacent display panels (10, 20).

Description

Splicing display device

Technical field

This application relates to the field of display, and in particular to a spliced display device.

Background technique

As TVs are becoming larger screens, the requirements for screen resolution are getting higher and higher, and display panels with 8K or higher resolution are bound to become a development trend.

As the size of the panel increases, the display panel not only includes more pixels, but also has longer scan data lines. Since the general power line itself has a certain impedance, and as it moves away from the signal emitting end, the influence of the resistance and capacitance of the panel itself on the signal delay increases, causing the panel to have technical problems with uneven brightness, such as the brightness near the data signal emitting end of the display panel. The gray scale is larger than the brightness gray scale far away from the data signal emitting end of the display panel. For large-size display panels, it is generally formed by splicing multiple display panels, and due to the impedance of the data signal line, the brightness of the splicing area of adjacent display panels will be different, resulting in a technical problem of uneven brightness in the spliced display device. .

Therefore, there is an urgent need for a spliced display device to solve the above technical problems.

technical problem

The present application provides a spliced display device to solve the technical problem of uneven display brightness of the spliced display device.

Technical solutions

The application provides a spliced display device, which includes at least two display panels and a driving device for driving the display panel to display;

Wherein, any one of the display panels includes at least two display areas arranged side by side along a first direction, and the driving device is used to control any two adjacent display areas to scan toward or away from each other. The scanning directions of the two display areas spliced by the display panels are opposite;

Wherein, when two adjacent display panels receive the same grayscale voltage, the maximum brightness area or the minimum brightness area of the display device is located between the two adjacent display panels.

In the spliced display device of the present application, the spliced display device includes at least a first display panel and a second display panel, and the first display panel includes at least a first display area and a second display area arranged in parallel along the first direction. A display area, the second display panel at least includes a third display area and a fourth display area arranged side by side along the first direction;

Scanning directions of the first display area and the third display area are the same as the first direction, and scanning directions of the second display area and the fourth display area are opposite to the first direction;

Wherein, the first direction is parallel to the data line of the display panel.

In the spliced display device of the present application, any one of the display panels includes 2k scan lines, the first to kth scan lines are located in the first area of the display panel, and the k+1 to 2kth scan lines are located in the first area of the display panel. The scan line is located in the second area of the display panel;

The scanning direction of the first area is the 1st to kth scan lines, the scanning direction of the second area is the 2kth to k+1th scan lines, and k is a positive integer;

Wherein, the first area is the first display area of the first display panel or the third display area of the second display panel, and the second area is the second display area of the first display panel Area or the fourth display area of the second display panel.

In the spliced display device of the present application, the driving device includes a first driving chip for controlling the display of the first display panel and a second driving chip for controlling the display of the second display panel. The driving chip and the second driving chip include 2k output channels, one of the output channels is correspondingly connected to one of the scan lines;

Wherein, the output channel in the first drive area in the first drive chip is connected to the scan line in the first display area correspondingly, and the output channel in the second drive area in the first drive chip Correspondingly connected with the scan line in the second display area, the output channel in the third drive area in the second drive chip is connected correspondingly with the scan line in the third display area, and the second driver The output channel in the fourth driving area in the chip is correspondingly connected to the scan line in the fourth display area.

In the spliced display device of the present application, the first driving area is the first to 2k-1 output channels of the odd-numbered items in the first driving chip, and the second driving area is the first The second to the 2kth output channels of the even-numbered items in the driving chip, the third driving area is the first to the 2k-1th output channels of the odd-numbered items in the second driving chip, and the The four driving areas are the second to the 2kth output channels of the even-numbered items in the second driving chip;

Wherein, the first to kth scan lines in the first display area are sequentially connected to the first to 2k-1th output channels in the first driving area, and the second display area The 2k to k+1th scan lines in the area are sequentially connected to the second to 2kth output channels in the second driving area, and the first to second scan lines in the third display area The k scan lines are sequentially connected to the first to 2k-1 output channels in the third driving area, and the 2k to k+1 scans in the fourth display area The lines are sequentially connected to the second to the 2kth output channels in the fourth driving area.

In the spliced display device of the present application, the first driving chip and the second driving chip include k output terminals, and one output terminal includes two output channels;

Wherein, the 2k-1th output channel in the first driving area and the 2kth output channel in the second driving area are electrically connected to the kth output terminal in the first driving chip. Connected, the 2k-1th output channel in the third drive area and the 2kth output channel in the fourth drive area are electrically connected to the kth output terminal in the second drive chip. connect.

In the spliced display device of the present application, the display panel further includes a first switch located on the first to kth scan lines in the first display panel and the second display panel, and the k+1 to k+1 The second switch on the 2kth scan line;

When the nth terminal inputs a scan signal to the corresponding scan line, the first switch corresponding to the nth terminal is closed, the second switch is opened, and the first display panel and the second display panel The nth scan line of receives the scan signal, and the 2k+1-nth scan line is in a non-working state;

After a predetermined time has elapsed, the first switch corresponding to the nth terminal is opened, the second switch is closed, and the nth scan line in the first display panel and the second display panel is in a non-operating state , The 2k+1-nth scan line receives the scan signal;

Among them, 1≤n≤k, and n is a positive integer.

In the spliced display device of the present application, the first driving area is the first to kth output channels in the first driving chip, and the second driving area is the kth output channel in the first driving chip. +1 to the 2kth output channel, the third driving area is the first to kth output channel in the second driving chip, and the fourth driving area is the second driving chip The k+1th to the 2kth said output channels;

The first to kth scan lines in the first display area are sequentially electrically connected to the first to kth output channels in the first driving area, and the first to kth scan lines in the second display area are The k+1 to 2k scan lines are sequentially electrically connected to the k+1 to 2kth output channels in the second driving area, and the first to kth lines in the third display area The scan lines are sequentially electrically connected to the first to kth output channels in the third driving area, and the k+1 to 2kth scan lines in the fourth display area are sequentially connected to the first to kth output channels in the fourth display area. The k+1 th to 2k th output channels in the fourth driving area are electrically connected;

Wherein, the display panel outputs a first scan signal to the first to kth output channels of the first driving chip and the second driving chip, and simultaneously to the first driving chip and the first driving chip. The 2kth to k+1th output channels in the second driving chip output the second scanning signal.

In the spliced display device of the present application, the driving device includes a first driving chip for controlling the display of the first display panel and the second display panel, and the first driving chip includes 2k output terminals, one The output terminal is correspondingly connected to the two scan lines;

Wherein, the output terminal in the first drive area in the first drive chip is connected to the scan lines in the first display area and the third display area, and the second drive in the first drive chip The output terminals in the area are correspondingly connected to the scan lines in the second display area and the fourth display area.

In the spliced display device of the present application, the first to kth scan lines in the first display area sequentially correspond to the first to 2k-1th output terminals in the first driving area Connected, the 2k to k+1 scan lines in the second display area are sequentially connected to the second to 2kth output terminals in the second driving area, and the third display The first to kth scan lines in the area are sequentially connected to the first to 2k-1 output terminals in the first driving area, and the second to second k-th output terminals in the fourth display area The k+1 scan lines are sequentially connected to the second to 2kth output terminals in the second driving area.

This application proposes a spliced display device, which includes at least two display panels and a driving device for driving the display of the display panel;

Any one of the display panels includes at least two display areas arranged side by side along a first direction, and the driving device is used to control any two adjacent display areas to scan toward or away from each other. The scanning directions of the two display areas spliced by the display panel are opposite, and the first direction is parallel to the data line of the display panel;

In the spliced display device of the present application, at least two of the display panels include a first display panel and a second display panel, and the first display panel includes at least a first display area and a second display area arranged in parallel along the first direction. A second display area, the second display panel at least includes a third display area and a fourth display area arranged side by side along the first direction;

The scanning directions of the first display area and the third display area are the same as the first direction, and the scanning directions of the second display area and the fourth display area are opposite to the first direction.

After a predetermined time has elapsed, the first switch corresponding to the nth terminal is opened, the second switch is closed, and the nth scan line in the first display panel and the second display panel is in a non-operating state , The 2k+1-nth scan line receives the scan signal; among them, 1≤n≤k, and n is a positive integer.

Beneficial effect

In the present application, the driving device controls any two adjacent display areas to scan oppositely or oppositely, so that the scanning directions of the two display areas spliced by two adjacent display panels are opposite, and when the When two adjacent display panels receive the same grayscale voltage, the maximum brightness area or minimum brightness area of the display device is located between two adjacent display panels, avoiding brightness in the adjacent area between the adjacent two display panels The difference improves the brightness uniformity of the spliced display device.

Description of the drawings

FIG. 1 is a schematic diagram of a splicing display device of this application;

Figure 2 is the first structure diagram of the splicing display device of this application;

FIG. 3 is a second structure diagram of the splicing display device of this application;

FIG. 4 is a third structural diagram of the splicing display device of this application;

FIG. 5 is a fourth structural diagram of the splicing display device of this application;

FIG. 6 is a fifth structure diagram of the splicing display device of this application.

Embodiments of the present invention

In order to make the purpose, technical solutions, and effects of this application clearer and clearer, the following further describes this application in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described here are only used to explain the application, and are not used to limit the application.

Existing large-size display panels are generally formed by splicing multiple display panels. However, due to the impedance of the data signal lines in each display panel, the panel has a technical problem of uneven brightness, which causes the brightness between adjacent display panels to change. The discrepancy causes the technical problem of uneven brightness of the spliced display device. This application proposes a splicing display device based on the above technical problems, and the specific solutions are as follows:

1 to 6, the spliced display device 100 includes at least two display panels and a driving device 30 for driving the display panel to display;

Wherein, any one of the display panels includes at least two display areas arranged side by side along the first direction X, and the driving device 30 is used to control any two adjacent display areas to scan toward or away from each other. The scanning directions of the two display areas where the two display panels are spliced are opposite;

Wherein, when two adjacent display panels receive the same grayscale voltage, the maximum brightness area or the minimum brightness area of the display device 100 is located between the two adjacent display panels.

In the present application, the driving device 30 controls the scanning of any two adjacent display areas facing or facing away from each other, so that the scanning directions of the two display areas spliced by two adjacent display panels are opposite, and when When two adjacent display panels receive the same grayscale voltage, the maximum brightness area or the minimum brightness area of the display device 100 is located between two adjacent display panels, avoiding the adjacent area between two adjacent display panels The brightness difference appears, which improves the brightness uniformity of the spliced display device 100.

The technical solution of the present application will now be described in conjunction with specific embodiments.

In the spliced display device 100 of this embodiment, the spliced display device may include at least a first display panel 10 and a second display panel 20. For example, as shown in FIG. 1, the spliced display device 100 is composed of four display panels. For the convenience of description, this embodiment takes two display panels as an example for description.

Referring to FIG. 2, the first display panel 10 includes at least a first display area 11 and a second display area 12 arranged side by side along the first direction X, and the second display panel 20 at least includes The third display area 21 and the fourth display area 22 are arranged side by side in the direction X, the scanning directions of the first display area 11 and the third display area 21 are the same as the first direction X, and the second display area The scanning direction of 12 and the fourth display area 22 is opposite to the first direction X.

In this embodiment, the first direction X is parallel to the data line of the display panel. As shown in Figures 2-6, the vertical lines are the scanning lines of this application.

In this embodiment, any one of the display panels includes 2k scan lines, the first to kth scan lines are located in the first area of the display panel, and the k+1 to 2kth scan lines Located in the second area of the display panel;

Wherein, the first area is the first display area 11 of the first display panel 10 or the third display area 21 of the second display panel 20, and the second area is the first display panel The second display area 12 of 10 or the fourth display area 22 of the second display panel 20.

In this embodiment, any of the display panels may include a plurality of display areas arranged along the first direction X, for example, the first display panel 10 and the second display panel 20 in FIG. 2 are provided with Two display areas.

In this embodiment, the driving device 30 at least includes a first driving chip 31 for controlling the display of at least one of the display panels. The first driving chip 31 includes 2k output channels, one output channel and one output channel. The scan lines are correspondingly connected;

Wherein, the output channel in the first driving area in the first driving chip 31 is connected to the scan line in the first area correspondingly, and the output channel in the second driving area in the first driving chip 31 is The channel is connected to the scan line in the second area correspondingly.

Referring to FIG. 2, the first driving chip 31 is used to control the display of the first display panel 10, and the output channel in the first driving chip 31 is only connected to the scan line in the first display panel 10.

In this embodiment, the first driving area is the first to 2k-1 output channels of the odd-numbered items in the first driving chip 31, and the second driving area is the first driving chip. The 2nd to 2kth said output channels of the even-numbered items in 31;

In this embodiment, the first to kth scan lines in the first display area 11 are sequentially connected to the first to 2k-1th output channels in the first driving area. The 2kth to k+1th scan lines in the second display area 12 are sequentially connected to the second to 2kth output channels in the second driving area.

In this embodiment, one output channel corresponds to one output terminal 33 on the first driving chip 31.

Referring to FIG. 2, the driving device 30 to further includes a second driving chip 32, the first driving chip 31 is used to drive the first display panel 10 to display, and the second driving chip 32 is used to drive the The second display panel 20 displays.

In this embodiment, the third drive area in the second drive chip 32 corresponds to the third display area 21 of the second display panel 20, and the fourth drive area in the second drive chip 32 corresponds to the third display area 21 of the second display panel 20. The fourth display area 22 of the second display panel 20 corresponds to.

Referring to FIG. 2, the first driving chip 31 and the second driving chip 32 are provided with 2k output channels, and one output channel corresponds to one output terminal 33 on the driving device 30. For example, in the first driver chip 31, the output channels located in odd-numbered items are correspondingly connected to the scan lines in the first display area 11 of the first display panel 10, and the output channels located in even-numbered items are connected to the first display area 11 of the first display panel. The scan lines in the second display area 12 of the display panel 10 are correspondingly connected. In the second driving chip 32, the output channels located in odd-numbered items are correspondingly connected to the scan lines in the third display area 21 of the second display panel 20, and the output channels located in even-numbered items are connected to the second display panel. The scan lines in the fourth display area 22 of 20 are correspondingly connected. The following takes the first driving chip 31 as an example for description:

Corresponding to the first driving area in the first driving chip 31, the first output channel is correspondingly connected to the first scan line in the first display area 11, and the third output channel is correspondingly connected to the second scan line in the first display area 11. For the scan line, the fifth output channel is correspondingly connected to the third scan line in the first display area 11. According to the related connection relationship, the 2k-1th output channel is correspondingly connected to the kth scan line in the first display area 11.

Corresponding to the second driving area in the first driving chip 31, the second output channel is correspondingly connected to the 2kth scan line of the second display area 12, and the fourth output channel is correspondingly connected to the 2k-1th scan line of the second display area 12 , The 6th output channel is correspondingly connected to the 2k-2th scan line in the second display area 12, and according to the related connection relationship, the 2kth output channel is correspondingly connected to the k+1th scan line in the second display area 12. Wherein, the k+1 scan line of the second display area 12 corresponds to the first scan line of the second display area 12, and the 2k scan line of the second display area 12 corresponds to the last scan line of the second display area 12. Scan line.

Corresponding to the third driving area in the second driving chip 32, the first output channel is correspondingly connected to the first scan line in the third display area 21, and the third output channel is correspondingly connected to the second scan line in the third display area 21 For the scan line, the fifth output channel is correspondingly connected to the third scan line in the third display area 21. According to the related connection relationship, the 2k-1th output channel is correspondingly connected to the kth scan line in the third display area 21.

Corresponding to the fourth driving area in the second driving chip 32, the second output channel is correspondingly connected to the 2kth scan line of the fourth display area 22, and the fourth output channel is correspondingly connected to the 2k-1th scan line of the fourth display area 22 , The sixth output channel is correspondingly connected to the 2k-2th scan line in the fourth display area 22, and according to the related connection relationship, the 2kth output channel is correspondingly connected to the k+1th scan line in the fourth display area 22. Wherein, the k+1 scan line of the fourth display area 22 corresponds to the first scan line of the fourth display area 22, and the 2k scan line of the fourth display area 22 corresponds to the last scan line of the fourth display area 22 Scan line.

In the first driving chip 31 and the second driving chip 32 described above, the first to 2k output channels in the first driving chip 31 and the second driving chip 32 receive scan signals in sequence. Therefore, the first scan line of the first display area 11 and the third display area 21 of the present application receives the scan signal first, and the second scan line of the second display area 12 and the fourth display area 22 receives the scan signal. The second scan line of the first display area 11 and the third display area 21 receives the scan signal first, and the second scan line of the second display area 12 and the fourth display area 22 receives the scan signal. By analogy, the scanning directions of the first display area 11 and the third display area 21 are opposite or opposite to the scanning directions of the second display area and the fourth display area 22.

According to the above scanning method, the brightness corresponding to the sub-pixels connected to the first scan line of the first display area 11 and the third display area 21, and the second display area 12 and the 2kth scan line of the fourth display area 22 The brightness of the sub-pixels connected to the kth scan line of the first display area 11 and the third display area 21 and the k+1 scan line of the second display area 12 and the fourth display area 22 is the smallest . Therefore, the brightness of the first display area 11, the second display area 12, the third display area 21, or the fourth display area 22 of the present application gradually decreases, then gradually increases, then gradually decreases, and finally gradually increases, adjacent to each other. The area between the two display areas corresponds to the minimum or maximum brightness.

In the prior art, due to the impedance of the signal lines in each display panel, when the scan signal is transmitted, the voltage of the corresponding scan signal of the signal line that first receives the scan signal is equal to the voltage of the signal sent from the driving chip . Since there are many scan lines in the display panel, for example, the existing display panel with a resolution of 1080P includes 1080 scan signal lines. As the subsequent scan signal lines sequentially receive the scan signals sent from the driving chip, the scan signals are The voltage lost due to impedance in the signal line is getting larger and larger, so the voltage of the scan signal actually transmitted to the corresponding scan line is gradually reduced, resulting in the brightness value of the corresponding column sub-pixels being lower than the preset value. In the above-mentioned embodiments of the present application, the present application controls the scan lines corresponding to the display areas in each display panel to be scanned toward or away from each other by connecting the scan lines corresponding to the display areas in each display panel. The scan line corresponding to the area between the panels receives the scan signal at the same time, so that the corresponding brightness of the area is the maximum brightness or the minimum brightness of the display device, thereby avoiding the adjacent area between two adjacent display panels. The brightness difference improves the brightness uniformity of the spliced display device 100.

Referring to FIG. 3, the first driving chip 31 and the second driving chip 32 include k output terminals 33, and one output terminal 33 includes two output channels.

In this embodiment, the 2k-1th output channel of the first driving area and the third driving area, and the 2kth one of the second driving area and the fourth driving area The output channel is electrically connected to the k-th output terminal 33 in the driving chip.

Different from the embodiment in FIG. 2, in the above-mentioned first driving chip 31 and second driving chip 32, the first scan line of the first display area 11 and the third display area 21, and the second display area 12 and the second display area The 2kth scan line of the four display areas 22 simultaneously receives the scan signals output by the first output terminal 33 of the first driving chip 31 and the second driving chip 32; secondly, the first display area 11 and the third display area 21 The two scan lines and the 2k-1 scan line of the second display area 12 and the fourth display area 22 simultaneously receive the scan signals output by the second output terminal 33 of the first driving chip 31 and the second driving chip 32, And so on. In this embodiment, there is no time delay in the scan line that first receives the scan signal in each display area, and the scan line corresponding to the adjacent display area can receive the corresponding scan signal at the same time, so that the brightness of the area between two adjacent display areas is more uniform. .

Please refer to FIG. 4, the display panel further includes a first switch 41 located on the first to kth scan lines in the first display panel 10 and the second display panel 20, and the k+1 to the k+1th scan lines. The second switch 42 on 2k scan lines.

When the nth terminal inputs a scan signal to the corresponding scan line, the first switch 41 corresponding to the nth terminal is closed and the second switch 42 is opened, and the first display panel 10 and the 2. The nth scan line in the display panel 20 receives a scan signal, and the 2k+1-nth scan line is in a non-working state;

After a predetermined time has elapsed, the first switch 41 corresponding to the nth terminal is opened, the second switch 42 is closed, and the nth scan line in the first display panel 10 and the second display panel 20 In the non-working state, the 2k+1-nth scan line receives the scan signal; among them, 1≤n≤k, and n is a positive integer.

On the basis of FIG. 3, the present application sets a first switch 41 on the scan lines corresponding to the first display area 11 and the third display area 21, and scan lines corresponding to the second display area 12 and the fourth display area 22. A second switch 42 is provided on the surface. The present application controls the closing of the first switch 41 and the second switch 42 to control the time for different scan lines to receive the corresponding scan signal, avoiding the crosstalk of the scan signal, and improving the accuracy of the scan signal output.

Referring to FIG. 5, the first driving area and the third driving area are the first to kth output channels in the first driving chip 31, and the second driving area and the fourth driving area The area is the k+1th to 2kth output channels in the first driving chip 31.

In this embodiment, the first to kth scan lines in the first display area 11 are sequentially electrically connected to the first to kth output channels in the first driving area, and the The k+1th to 2kth scan lines in the second display area 12 are sequentially electrically connected to the k+1th to 2kth output channels in the second driving area; the third display area The first to kth scan lines in 21 are sequentially electrically connected to the first to kth output channels in the third driving area, and the k+1 to kth scan lines in the fourth display area 22 are The 2kth scan line is electrically connected to the k+1th to 2kth output channels in the fourth driving area in sequence.

For example, the display panel outputs a first scan signal to the first to kth output channels, and simultaneously outputs a second scan signal to the 2kth to k+1th output channels. The present application adjusts the order in which the output channels in the second drive area receive the scan signals. For example, the output terminal 33 in the first drive area receives the corresponding first scan signal from left to right, and the output terminals in the second drive area 33 is to receive the corresponding second scan signal from right to left, so that while the first scan line of the first display area 11 receives the first scan signal output by the first output terminal 33 in the first drive area, the second display The 2k scan line of the area 12 simultaneously receives the second scan signal output by the 2k output terminal 33 of the second driving area; the second scan line of the first display area 11 receives the second output terminal of the first driving area At the same time as the first scan signal output by 33, the 2k-1 scan line of the second display area 12 simultaneously receives the second scan signal output by the 2k-1 output terminal 33 of the second driving area. By analogy, the above technical solution realizes the relative scanning of the first display area 11 and the second display area 12.

In the same way, the connection manner of the second driving chip 32 and the second display panel 20 can refer to the above-mentioned connection manner. The scanning mode between each display area may be the above-mentioned opposite scanning or opposite scanning, which is not specifically limited in this application.

Please refer to FIG. 6, on the basis of the foregoing embodiment, the driving device 30 includes a first driving chip 31 for controlling the display of the first display panel 10 and the second display panel 20, and the first driving device The chip 31 includes 2k output terminals 33, and one of the output terminals 33 is correspondingly connected to the two scan lines;

Wherein, the output terminal 33 in the first driving area of the first driving chip 31 is correspondingly connected to the scanning lines in the first display area 11 and the third display area 21, and the first driving chip The output terminal 33 in the second driving area in 31 is correspondingly connected to the scan lines in the second display area 12 and the fourth display area 22.

In this embodiment, the first to kth scan lines in the first display area 11 are sequentially connected to the first to 2k-1 output terminals 33 in the first driving area. , The 2kth to k+1th scan lines in the second display area 12 are sequentially connected to the second to 2kth output terminals 33 in the second driving area, and the third The first to kth scan lines in the display area 21 are sequentially connected to the first to 2k-1 output terminals 33 in the first driving area, and the fourth display area 22 The 2kth to k+1th scan lines are sequentially connected to the second to 2kth output terminals 33 in the second driving area.

In this application, one terminal connects the scan lines for scanning in the first column in the display area arranged at intervals. By analogy, the multiplexing of one output terminal 33 can be realized, which not only realizes the relative orientation or phase between adjacent display areas. Backward scanning also reduces the number of output terminals on the driving device 30.

The present application proposes a spliced display device, which includes at least two display panels and a driving device for driving the display of the display panel; any one of the display panels includes at least two display areas arranged in parallel along a first direction X . In the present application, the driving device controls any two adjacent display areas to scan oppositely or oppositely, so that the scanning directions of the two display areas spliced by two adjacent display panels are opposite, and when the When two adjacent display panels receive the same grayscale voltage, the maximum brightness area or minimum brightness area of the display device is located between two adjacent display panels, avoiding brightness in the adjacent area between the adjacent two display panels The difference improves the brightness uniformity of the spliced display device.

It can be understood that for those of ordinary skill in the art, equivalent replacements or changes can be made according to the technical solutions of the present application and its inventive concept, and all these changes or replacements shall fall within the protection scope of the appended claims of the present application.

Claims

A spliced display device, which includes at least two display panels and a driving device for driving the display of the display panel;

Any one of the display panels includes at least two display areas arranged side by side along a first direction, and the driving device is used to control any two adjacent display areas to scan toward or away from each other. The scanning directions of the two display areas spliced by the display panels are opposite;

Wherein, when two adjacent display panels receive the same grayscale voltage, the maximum brightness area or the minimum brightness area of the display device is located between the two adjacent display panels.
The spliced display device according to claim 1, wherein at least two of the display panels include a first display panel and a second display panel, and the first display panel includes at least a first display panel arranged in parallel along the first direction. A display area and a second display area, the second display panel includes at least a third display area and a fourth display area arranged side by side along the first direction;

The scanning directions of the first display area and the third display area are the same as the first direction, and the scanning directions of the second display area and the fourth display area are opposite to the first direction.
3. The spliced display device according to claim 2, wherein any one of the display panels includes 2k scan lines, the first to kth scan lines are located in the first area of the display panel, and the k+1th scan line is located in the first area of the display panel. Up to 2k of the scan lines are located in the second area of the display panel;

The scanning direction of the first area is the 1st to kth scan lines, the scanning direction of the second area is the 2kth to k+1th scan lines, and k is a positive integer;

Wherein, the first area is the first display area of the first display panel or the third display area of the second display panel, and the second area is the second display area of the first display panel Area or the fourth display area of the second display panel.
3. The spliced display device according to claim 3, wherein the driving device comprises a first driving chip for controlling the display of the first display panel and a second driving chip for controlling the display of the second display panel, The first driving chip and the second driving chip include 2k output channels, one of the output channels is correspondingly connected to one of the scan lines;

Wherein, the output channel in the first drive area in the first drive chip is connected to the scan line in the first display area correspondingly, and the output channel in the second drive area in the first drive chip Correspondingly connected with the scan line in the second display area, the output channel in the third drive area in the second drive chip is connected correspondingly with the scan line in the third display area, and the second driver The output channel in the fourth driving area in the chip is correspondingly connected to the scan line in the fourth display area.
4. The spliced display device of claim 4, wherein the first driving area is the first to 2k-1 output channels of the odd-numbered items in the first driving chip, and the second driving area is The second to 2kth output channels of the even-numbered items in the first driving chip, and the third driving area is the first to 2k-1th output channels of the odd-numbered items in the second driving chip , The fourth driving area is the second to the 2kth output channels of the even-numbered items in the second driving chip;

Wherein, the first to kth scan lines in the first display area are sequentially connected to the first to 2k-1th output channels in the first driving area, and the second display area The 2k to k+1th scan lines in the area are sequentially connected to the second to 2kth output channels in the second driving area, and the first to second scan lines in the third display area The k scan lines are sequentially connected to the first to 2k-1 output channels in the third driving area, and the 2k to k+1 scans in the fourth display area The lines are sequentially connected to the second to the 2kth output channels in the fourth driving area.
5. The spliced display device according to claim 5, wherein the first driving chip and the second driving chip comprise k output terminals, and one of the output terminals comprises two output channels;

Wherein, the 2k-1th output channel in the first driving area and the 2kth output channel in the second driving area are electrically connected to the kth output terminal in the first driving chip. Connected, the 2k-1th output channel in the third drive area and the 2kth output channel in the fourth drive area are electrically connected to the kth output terminal in the second drive chip. connect.
8. The spliced display device of claim 6, wherein the display panel further comprises a first switch located on the first to kth scan lines of the first display panel and the second display panel, and a k+1 to the second switch on the 2kth scan line;

When the nth terminal inputs a scan signal to the corresponding scan line, the first switch corresponding to the nth terminal is closed, the second switch is opened, and the first display panel and the second display panel The nth scan line of receives the scan signal, and the 2k+1-nth scan line is in a non-working state;

After a predetermined time has elapsed, the first switch corresponding to the nth terminal is opened, the second switch is closed, and the nth scan line in the first display panel and the second display panel is in a non-operating state , The 2k+1-nth scan line receives the scan signal; among them, 1≤n≤k, and n is a positive integer.
4. The spliced display device according to claim 4, wherein the first driving area is the first to kth output channels in the first driving chip, and the second driving area is the first driving The k+1 to 2kth output channels in the chip, the third driving area is the 1st to kth output channels in the second driving chip, and the fourth driving area is the (2) k+1th to 2kth said output channels in the driving chip;

The first to kth scan lines in the first display area are sequentially electrically connected to the first to kth output channels in the first driving area, and the first to kth scan lines in the second display area are The k+1 to 2k scan lines are sequentially electrically connected to the k+1 to 2kth output channels in the second driving area, and the first to kth lines in the third display area The scan lines are sequentially electrically connected to the first to kth output channels in the third driving area, and the k+1 to 2kth scan lines in the fourth display area are sequentially connected to the first to kth output channels in the fourth display area. The k+1 th to 2k th output channels in the fourth driving area are electrically connected;

Wherein, the display panel outputs a first scan signal to the first to kth output channels of the first driving chip and the second driving chip, and simultaneously to the first driving chip and the first driving chip. The 2kth to k+1th output channels in the second driving chip output the second scanning signal.
The spliced display device according to claim 3, wherein the driving device comprises a first driving chip for controlling the display of the first display panel and the second display panel, and the first driving chip includes 2k An output terminal, one of the output terminals is correspondingly connected to the two scan lines;

Wherein, the output terminal in the first drive area in the first drive chip is connected to the scan lines in the first display area and the third display area, and the second drive in the first drive chip The output terminals in the area are correspondingly connected to the scan lines in the second display area and the fourth display area.
9. The spliced display device according to claim 9, wherein the first to kth scan lines in the first display area are sequentially connected to the first to 2k-1th scan lines in the first driving area. The output terminals are correspondingly connected, and the 2k to k+1 scan lines in the second display area are sequentially connected to the 2k to 2kth output terminals in the second driving area, so The first to kth scan lines in the third display area are sequentially connected to the first to 2k-1 output terminals in the first driving area, and the The 2kth to k+1th scan lines are sequentially connected to the second to 2kth output terminals in the second driving area.
A spliced display device, which includes at least two display panels and a driving device for driving the display of the display panel;

Any one of the display panels includes at least two display areas arranged side by side along a first direction, and the driving device is used to control any two adjacent display areas to scan toward or away from each other. The scanning directions of the two display areas spliced by the display panel are opposite, and the first direction is parallel to the data line of the display panel;

Wherein, when two adjacent display panels receive the same grayscale voltage, the maximum brightness area or the minimum brightness area of the display device is located between the two adjacent display panels.
11. The spliced display device of claim 11, wherein at least two of the display panels include a first display panel and a second display panel, and the first display panel includes at least a first display panel arranged in parallel along the first direction. A display area and a second display area, the second display panel includes at least a third display area and a fourth display area arranged side by side along the first direction;

The scanning directions of the first display area and the third display area are the same as the first direction, and the scanning directions of the second display area and the fourth display area are opposite to the first direction.
The spliced display device according to claim 12, wherein any one of the display panels includes 2k scan lines, the first to kth scan lines are located in the first area of the display panel, and the k+1th scan line is located in the first area of the display panel. Up to 2k of the scan lines are located in the second area of the display panel;

The scanning direction of the first area is the 1st to kth scan lines, the scanning direction of the second area is the 2kth to k+1th scan lines, and k is a positive integer;

Wherein, the first area is the first display area of the first display panel or the third display area of the second display panel, and the second area is the second display area of the first display panel Area or the fourth display area of the second display panel.
The spliced display device according to claim 13, wherein the driving device comprises a first driving chip for controlling the display of the first display panel and a second driving chip for controlling the display of the second display panel, The first driving chip and the second driving chip include 2k output channels, one of the output channels is correspondingly connected to one of the scan lines;

Wherein, the output channel in the first drive area in the first drive chip is connected to the scan line in the first display area correspondingly, and the output channel in the second drive area in the first drive chip Correspondingly connected with the scan line in the second display area, the output channel in the third drive area in the second drive chip is connected correspondingly with the scan line in the third display area, and the second driver The output channel in the fourth driving area in the chip is correspondingly connected to the scan line in the fourth display area.
14. The spliced display device according to claim 14, wherein the first driving area is the first to 2k-1 output channels of the odd-numbered items in the first driving chip, and the second driving area is The second to 2kth output channels of the even-numbered items in the first driving chip, and the third driving area is the first to 2k-1th output channels of the odd-numbered items in the second driving chip , The fourth driving area is the second to the 2kth output channels of the even-numbered items in the second driving chip;

Wherein, the first to kth scan lines in the first display area are sequentially connected to the first to 2k-1th output channels in the first driving area, and the second display area The 2k to k+1th scan lines in the area are sequentially connected to the second to 2kth output channels in the second driving area, and the first to second scan lines in the third display area The k scan lines are sequentially connected to the first to 2k-1 output channels in the third driving area, and the 2k to k+1 scans in the fourth display area The lines are sequentially connected to the second to the 2kth output channels in the fourth driving area.
15. The spliced display device according to claim 15, wherein the first driving chip and the second driving chip comprise k output terminals, and one of the output terminals comprises two output channels;

Wherein, the 2k-1th output channel in the first driving area and the 2kth output channel in the second driving area are electrically connected to the kth output terminal in the first driving chip. Connected, the 2k-1th output channel in the third drive area and the 2kth output channel in the fourth drive area are electrically connected to the kth output terminal in the second drive chip. connect.
16. The spliced display device according to claim 16, wherein the display panel further comprises a first switch located on the first to kth scan lines of the first display panel and the second display panel, and a k+1 to the second switch on the 2kth scan line;

When the nth terminal inputs a scan signal to the corresponding scan line, the first switch corresponding to the nth terminal is closed, the second switch is opened, and the first display panel and the second display panel The nth scan line of receives the scan signal, and the 2k+1-nth scan line is in a non-working state;

After a predetermined time has elapsed, the first switch corresponding to the nth terminal is opened, the second switch is closed, and the nth scan line in the first display panel and the second display panel is in a non-operating state , The 2k+1-nth scan line receives the scan signal; among them, 1≤n≤k, and n is a positive integer.
14. The spliced display device according to claim 14, wherein the first driving area is the first to kth output channels in the first driving chip, and the second driving area is the first driving The k+1 to 2kth output channels in the chip, the third driving area is the 1st to kth output channels in the second driving chip, and the fourth driving area is the (2) k+1th to 2kth said output channels in the driving chip;

The first to kth scan lines in the first display area are sequentially electrically connected to the first to kth output channels in the first driving area, and the first to kth scan lines in the second display area are The k+1 to 2k scan lines are sequentially electrically connected to the k+1 to 2kth output channels in the second driving area, and the first to kth lines in the third display area The scan lines are sequentially electrically connected to the first to kth output channels in the third driving area, and the k+1 to 2kth scan lines in the fourth display area are sequentially connected to the first to kth output channels in the fourth display area. The k+1 th to 2k th output channels in the fourth driving area are electrically connected;

Wherein, the display panel outputs a first scan signal to the first to kth output channels of the first driving chip and the second driving chip, and simultaneously to the first driving chip and the first driving chip. The 2kth to k+1th output channels in the second driving chip output the second scanning signal.
The spliced display device according to claim 13, wherein the driving device comprises a first driving chip for controlling the display of the first display panel and the second display panel, and the first driving chip includes 2k An output terminal, one of the output terminals is correspondingly connected to the two scan lines;

Wherein, the output terminal in the first drive area in the first drive chip is connected to the scan lines in the first display area and the third display area, and the second drive in the first drive chip The output terminals in the area are correspondingly connected to the scan lines in the second display area and the fourth display area.
19. The spliced display device according to claim 19, wherein the first to kth scan lines in the first display area are in sequence with the first to 2k-1th scan lines in the first drive area. The output terminals are correspondingly connected, and the 2k to k+1 scan lines in the second display area are sequentially connected to the 2k to 2kth output terminals in the second driving area, so The first to kth scan lines in the third display area are sequentially connected to the first to 2k-1 output terminals in the first driving area, and the The 2kth to k+1th scan lines are sequentially connected to the second to 2kth output terminals in the second driving area.